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Ch. 17 - Microbial GeneticsWorksheetSee all chapters
All Chapters
Ch. 1 - Introduction to Microbiology
Ch. 2 - Disproving Spontaneous Generation
Ch. 3 - Chemical Principles of Microbiology
Ch. 4 - Water
Ch. 5 - Molecules of Microbiology
Ch. 6 - Cell Membrane & Transport
Ch. 7 - Prokaryotic Cell Structures & Functions
Ch. 8 - Eukaryotic Cell Structures & Functions
Ch. 9 - Microscopes
Ch. 10 - Dynamics of Microbial Growth
Ch. 11 - Controlling Microbial Growth
Ch. 12 - Microbial Metabolism
Ch. 13 - Photosynthesis
Ch. 15 - DNA Replication
Ch. 16 - Central Dogma & Gene Regulation
Ch. 17 - Microbial Genetics
Ch. 18 - Biotechnology
Ch. 21 - Viruses, Viroids, & Prions
Ch. 22 - Innate Immunity
Ch. 23 - Adaptive Immunity
Ch. 24 - Principles of Disease
Sections
Introduction to Microbial Genetics
Introduction to Mutations
Methods of Inducing Mutations
Prototrophs vs. Auxotrophs
Mutant Detection
The Ames Test
Introduction to DNA Repair
DNA Repair Mechanisms
Horizontal Gene Transfer
Bacterial Transformation
Transduction
Introduction to Conjugation
Conjugation: F Plasmids
Conjugation: Hfr & F' Cells
Genome Variability
CRISPR CAS
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Next SectionTransduction

Concept #1: Bacterial Transformation

Concept #2: Bacterial Transformation

Practice: What does it mean when a bacterial cell is naturally competent?

Practice: Bacterial cells can become competent in two ways, which are:

Practice: DNA transformation in bacteria is an important tool for DNA modification and cloning experiments. If the DNA being transformed by the bacteria contains antibiotic resistance genes, how does this help the scientists?

Previous SectionHorizontal Gene Transfer
Next SectionTransduction